MJO modulating the activity of the leading mode of intraseasonal variability in South America

Intraseasonal (IS) variability in South America is efficiently described through the first empirical orthogonal function of filtered precipitation or outgoing longwave radiation (OLR) anomalies. In the 30-90-day band, the leading OLR pattern between October and April is a dipole with centers of acti...

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Autores principales: Alvarez, M.S., Vera, C.S., Kiladis, G.N.
Formato: JOUR
Materias:
Intraseasonal
OLR
SIS pattern
South America
Modulation
Orthogonal functions
Wind effects
Empirical Orthogonal Function
Intra-seasonal
Intraseasonal variability
Madden-Julian oscillation
Outgoing longwave radiation
South atlantic convergence zones
Southeastern South America
Climatology
air-sea interaction
atmospheric convection
longwave radiation
precipitation (climatology)
seasonal variation
Indian Ocean
Indian Ocean (East)
Pacific Ocean
Pacific Ocean (West)
Acceso en línea:http://hdl.handle.net/20.500.12110/paper_20734433_v8_n12_p_Alvarez
Aporte de:
Biblioteca Digital - Facultad de Ciencias Exactas y Naturales (UBA) de Universidad de Buenos Aires
id todo:paper_20734433_v8_n12_p_Alvarez
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spelling todo:paper_20734433_v8_n12_p_Alvarez2023-10-03T16:39:13Z MJO modulating the activity of the leading mode of intraseasonal variability in South America Alvarez, M.S. Vera, C.S. Kiladis, G.N. Intraseasonal OLR SIS pattern South America Modulation Orthogonal functions Wind effects Empirical Orthogonal Function Intra-seasonal Intraseasonal variability Madden-Julian oscillation Outgoing longwave radiation South America South atlantic convergence zones Southeastern South America Climatology air-sea interaction atmospheric convection longwave radiation Madden-Julian oscillation precipitation (climatology) seasonal variation Indian Ocean Indian Ocean (East) Pacific Ocean Pacific Ocean (West) South America Intraseasonal (IS) variability in South America is efficiently described through the first empirical orthogonal function of filtered precipitation or outgoing longwave radiation (OLR) anomalies. In the 30-90-day band, the leading OLR pattern between October and April is a dipole with centers of action in the South Atlantic Convergence Zone (SACZ) and southeastern South America (SESA). The Madden Julian Oscillation (MJO) was shown to have an impact on the rainfall in South America, with greater influence during the austral warm season. The aim of this study is therefore to assess the modulation of the MJO in the activity of the leading pattern of variability in South America, named the 3090-Seasonal-Intraseasonal (SIS) pattern. It was found that the most intense periods of activity of the SIS pattern appear to be related to intense MJO events with coherent eastward propagation. Furthermore, positive 3090-SIS phases, associated with enhanced (inhibited) convection over the SESA (SACZ) region generally occur during MJO progression from the eastern Indian Ocean to the Western Pacific (i.e., Maritime Continent sector). On the contrary, negative 3090-SIS phases, associated with enhanced (inhibited) convection over SACZ (SESA) are observed when the MJO active phase locates between the Western Pacific and the western Indian Ocean (African sector). The 3090-SIS pattern modulation by the MJO opens the opportunity to develop skillful subseasonal prediction tools in South America. © 2017 by the authors. JOUR info:eu-repo/semantics/openAccess http://creativecommons.org/licenses/by/2.5/ar http://hdl.handle.net/20.500.12110/paper_20734433_v8_n12_p_Alvarez
institution Universidad de Buenos Aires
institution_str I-28
repository_str R-134
collection Biblioteca Digital - Facultad de Ciencias Exactas y Naturales (UBA)
topic Intraseasonal
OLR
SIS pattern
South America
Modulation
Orthogonal functions
Wind effects
Empirical Orthogonal Function
Intra-seasonal
Intraseasonal variability
Madden-Julian oscillation
Outgoing longwave radiation
South America
South atlantic convergence zones
Southeastern South America
Climatology
air-sea interaction
atmospheric convection
longwave radiation
Madden-Julian oscillation
precipitation (climatology)
seasonal variation
Indian Ocean
Indian Ocean (East)
Pacific Ocean
Pacific Ocean (West)
South America
spellingShingle Intraseasonal
OLR
SIS pattern
South America
Modulation
Orthogonal functions
Wind effects
Empirical Orthogonal Function
Intra-seasonal
Intraseasonal variability
Madden-Julian oscillation
Outgoing longwave radiation
South America
South atlantic convergence zones
Southeastern South America
Climatology
air-sea interaction
atmospheric convection
longwave radiation
Madden-Julian oscillation
precipitation (climatology)
seasonal variation
Indian Ocean
Indian Ocean (East)
Pacific Ocean
Pacific Ocean (West)
South America
Alvarez, M.S.
Vera, C.S.
Kiladis, G.N.
MJO modulating the activity of the leading mode of intraseasonal variability in South America
topic_facet Intraseasonal
OLR
SIS pattern
South America
Modulation
Orthogonal functions
Wind effects
Empirical Orthogonal Function
Intra-seasonal
Intraseasonal variability
Madden-Julian oscillation
Outgoing longwave radiation
South America
South atlantic convergence zones
Southeastern South America
Climatology
air-sea interaction
atmospheric convection
longwave radiation
Madden-Julian oscillation
precipitation (climatology)
seasonal variation
Indian Ocean
Indian Ocean (East)
Pacific Ocean
Pacific Ocean (West)
South America
description Intraseasonal (IS) variability in South America is efficiently described through the first empirical orthogonal function of filtered precipitation or outgoing longwave radiation (OLR) anomalies. In the 30-90-day band, the leading OLR pattern between October and April is a dipole with centers of action in the South Atlantic Convergence Zone (SACZ) and southeastern South America (SESA). The Madden Julian Oscillation (MJO) was shown to have an impact on the rainfall in South America, with greater influence during the austral warm season. The aim of this study is therefore to assess the modulation of the MJO in the activity of the leading pattern of variability in South America, named the 3090-Seasonal-Intraseasonal (SIS) pattern. It was found that the most intense periods of activity of the SIS pattern appear to be related to intense MJO events with coherent eastward propagation. Furthermore, positive 3090-SIS phases, associated with enhanced (inhibited) convection over the SESA (SACZ) region generally occur during MJO progression from the eastern Indian Ocean to the Western Pacific (i.e., Maritime Continent sector). On the contrary, negative 3090-SIS phases, associated with enhanced (inhibited) convection over SACZ (SESA) are observed when the MJO active phase locates between the Western Pacific and the western Indian Ocean (African sector). The 3090-SIS pattern modulation by the MJO opens the opportunity to develop skillful subseasonal prediction tools in South America. © 2017 by the authors.
format JOUR
author Alvarez, M.S.
Vera, C.S.
Kiladis, G.N.
author_facet Alvarez, M.S.
Vera, C.S.
Kiladis, G.N.
author_sort Alvarez, M.S.
title MJO modulating the activity of the leading mode of intraseasonal variability in South America
title_short MJO modulating the activity of the leading mode of intraseasonal variability in South America
title_full MJO modulating the activity of the leading mode of intraseasonal variability in South America
title_fullStr MJO modulating the activity of the leading mode of intraseasonal variability in South America
title_full_unstemmed MJO modulating the activity of the leading mode of intraseasonal variability in South America
title_sort mjo modulating the activity of the leading mode of intraseasonal variability in south america
url http://hdl.handle.net/20.500.12110/paper_20734433_v8_n12_p_Alvarez
work_keys_str_mv AT alvarezms mjomodulatingtheactivityoftheleadingmodeofintraseasonalvariabilityinsouthamerica
AT veracs mjomodulatingtheactivityoftheleadingmodeofintraseasonalvariabilityinsouthamerica
AT kiladisgn mjomodulatingtheactivityoftheleadingmodeofintraseasonalvariabilityinsouthamerica
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